System for prefetching digital tags

ABSTRACT

Systems and methods described herein can take advantage of the caching abilities of the browser and the idle time of the user to prefetch tag libraries of one or more tags for execution in a subsequent content page. For example, these systems and methods can provide the ability to prefetch and not execute a tag library on a content page before it is required so the tag library is cached in the browser. When the browser hits the page that uses the tag library, the tag library can be quickly retrieved from memory and executed.

RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.15/726,837, filed Oct. 6, 2017, entitled “SYSTEM FOR PREFETCHING DIGITALTAGS,” which is a divisional of U.S. patent application Ser. No.15/332,992, filed Oct. 24, 2016, entitled “SYSTEM FOR PREFETCHINGDIGITAL TAGS,” which is a continuation of U.S. patent application Ser.No. 14/795,776, filed Jul. 9, 2015, entitled “SYSTEM FOR PREFETCHINGDIGITAL TAGS,” which is a continuation of U.S. patent application Ser.No. 14/525,031, filed Oct. 27, 2014, entitled “SYSTEM FOR PREFETCHINGDIGITAL TAGS,” which claims priority under 35 U.S.C. § 119(e) as anonprovisional application of the following U.S. ProvisionalApplication:

App. No. Filing Date Title Attorney Docket 61/896,351 Oct. 28, 2013SYSTEM FOR TEALM.004PR PREFETCHING DIGITAL MARKETING TAGS

In addition, this application is related to U.S. application Ser. No.14/149,717, filed Jan. 7, 2014, titled “Content Site Visitor ProcessingSystem” and U.S. application Ser. No. 14/151,700, filed Jan. 9, 2014,titled “Combined Synchronous and Asynchronous Tag Deployment.” Thedisclosures of each of the foregoing applications are herebyincorporated by reference in their entirety. Further, any subset of theembodiments described herein can be implemented in combination with anysubset of the embodiments described in the foregoing applications.

BACKGROUND

Some operators of content sites, such as websites, regularly obtain theresults of analytics performed with regard to user interactions on theircontent sites. User analytics can include any type of data regardinginteractions of end users with content sites, among other types of data.There are different approaches to gathering analytics data, one of whichincludes employing the use of digital tags.

Digital tags can include small pieces of website code that allow awebsite operator to measure traffic and visitor behavior, understand theimpact of online advertising and social channels, use remarketing andaudience targeting, or use personalization features to test and improvea content site, among optionally other functions. Adding tags to acontent site has typically required involving a developer to manuallyinsert tag code into one or more pages of a website.

SUMMARY

In most cases, tag libraries are both loaded and executed in consecutivesteps. Once a tag library is loaded in a browser, it may be stored orcached by the browser for a period of time, and if a subsequent requestoccurs, it may be loaded immediately from memory and may not requirereloading over the network. In addition, during a navigation flow on awebsite (such as checkout, signup, etc.) pages often have significantperiods of idle time where content has already loaded and users areinteracting with the website, nor is there any sense of urgency to loadcontent relevant to user experience.

An aspect of at least one of the embodiments disclosed herein includesthe realization that the caching abilities of many common browsers andthe time during which users “idle” on a web page, which varies but isfrequent, can be used to prefetch tag libraries of one or more tags forexecution in a subsequent content page. Such prefetching can enhanceperformance of the browser, the user experience, and execution of tagson the subsequent content page. Although there is a chance that the userwill not browse to the subsequent content page or otherwise triggerexecution of those pre-fetched tags or tag libraries, the userexperience is not necessarily drastically affected in a negative waybecause the prefetching can be performed during user idle time.

For example, in some embodiments described herein, tags or tag librariescan be prefetched but not executed on a page before they are required sothe tags or tag libraries are cached in the browser. When the browserhits the page that uses the tags or tag library or otherwise triggersthose preteched tags, they can be quickly retrieved from memory andexecuted. Such prefetching can thereby reduce the amount of browserresources at the initial moment a user browses to a new content page,which is a time when users typically are focused on waiting for thecontent to load. Thus, prefetching tags and/or tag libraries can providea desirable reduction in demand of browser resources and thus improvethe browsing experience for the user.

BRIEF DESCRIPTION OF THE DRAWINGS

Throughout the drawings, reference numbers are re-used to indicatecorrespondence between referenced elements. The drawings are provided toillustrate embodiments of the features described herein and not to limitthe scope thereof.

FIG. 1 depicts an embodiment of a computing environment that providesaccess to an analytics system including a visitor processing systemand/or a tag management system.

FIGS. 2A, 2B, and 2C depict example tag loading scenarios in whichexample sequences of pages of a content site are shown.

FIG. 3 depicts an embodiment of a prefetch overview process.

FIGS. 4A and 4B depict embodiments of state flow diagrams forprefetching tags.

FIG. 5 depicts an embodiment of a sequence-based prefetch process.

FIG. 6 depicts an embodiment of a profile-based prefetch process.

FIG. 7 depicts an embodiment of a load time-based prefetch process.

FIG. 8 depicts an example user interface that can allow users to specifydifferent prefetch or load rules for a page sequence.

FIG. 9 depicts an example user interface that enables a user to specifythat a tag is to be prefetched.

FIG. 10 depicts another embodiment of a computing environment, whichprovides distributed cloud-based access to an analytics system.

DETAILED DESCRIPTION I. Tag Management Overview

Adding tags to web pages without efficient management can createsignificant problems and inconveniences. For instance, code associatedwith multiple tags can bog down a content site and can be a majorperformance drain. Redundant or incorrectly applied tags can alsodistort measurements and result in duplicate costs or missing data. Poortag management can also be time consuming for the information technology(IT) department or webmaster team to add new tags, which may mean thatimportant measurement and marketing programs might be significantlydelayed.

Tag management systems have recently been introduced to improve themanagement of tags. In one embodiment, a tag management system candeploy a single tag or a tag container to a content site. Each page orany subset of pages in the content site can incorporate the tagcontainer as a universal tag that can be used to gather any type ofvisitor data of a visitor to a content site. This tag container can beused to interface with any number of third party vendor tags withoutrequiring, in certain embodiments, such tags to be coded expressly inthe code of the content pages (such as web pages) of the content site.Thus, changes to the tagging of a content site may be made through auser interface provided by the tag management system without having touse a developer to add the tags to the content pages manually. As aresult, the tag management system can be more accessible to peoplewithout IT or programming knowledge.

This tag container approach to tag management can promote highscalability and provide marketing agility, enabling marketers and othertag management users to rapidly change data collected or analyzed by thetag management system. Further, since one tag container is embeddedwithin the content pages in certain embodiments, the content pages mayload faster and, therefore, include many performance improvements.Moreover, there may be reduction of IT costs provided by using thedisclosed tag management system because IT personnel can shift away fromperforming tag management work to focusing on IT work. However, as willbe seen below, it can be beneficial to include a second tag container toaddress other performance issues related to personalization for testingand improving a content site.

II. Overview of Tag Prefetching

When a user browses the internet, the demand on the client computerchanges drastically from moment to moment. For example, at some pointsin time, a user's computer can be heavily burdened with two-waycommunications with content pages, downloading various kinds of media(e.g., text, graphics, images, videos, sounds, etc.), rendering thedownloaded media, certificate verifications, etc. Moments later, afterall media content requests have been satisfied and the user is simplylooking at the screen or has walked away, the user's computer might belargely idle.

One example of heavy use of browser resources is when a user initiallyrequests a new page. Often times, when a user initially requests accessto a new page, the user is more highly focused on the computer'sresponsiveness and the speed at which content is loaded and displayed.For example, the moment immediately following a user request to load anew content page is typically associated with a user staring at acomputer display, watching graphics gradually render, andfunctionalities to gradually be activated. Delays in this process can befrustrating to a user.

Some delays can be generated by web pages that use digital tagmanagement solutions coded to load tag libraries of one or more tags onpages for content, user experience, or data collection functionality.When these tags load, they may be pulled over a network from aweb-enabled server or the like and loaded in a content page. Thisloading takes time and uses some of the available bandwidth of thebrowser. More specifically, these tags sometimes load at the top orbeginning of a web page, and as a result the page may take longer toload and thus can negatively affect the user's experience.

As these tag libraries grow in size, this time duration increases. Ifthere are any delays in the delivery of a tag library, the page load maybe further delayed. Studies have shown that delays in page load cannegatively impact “site conversion rates,” which can directly impact acompany's revenue. Current technologies incur this load burden and loadtag libraries when they are needed. However, as the number of taglibraries on a page increases, pages take longer to load, and customerexperience is diminished. Even if asynchronous tag loading schemes areused, tags may not complete their loading before a user navigates to adifferent page, resulting in potential loss of analytics information.

In most cases, tag libraries are both loaded and executed in consecutivesteps. Once a tag library is loaded in a browser, it may be stored orcached by the browser for a period of time, and if a subsequent requestoccurs, it may be loaded immediately from memory and may not requirereloading over the network. In addition, during a navigation flow on awebsite (such as checkout, signup, etc.) pages often have significantperiods of idle time where content has already loaded and users areinteracting with the website, nor is there any sense of urgency to loadcontent relevant to user experience. Embodiments described herein cantake advantage of the caching abilities of the browser and the idle timeon the page to prefetch tag libraries of one or more tags for executionin one or more subsequent content pages. For example, in certainembodiments, systems and methods described herein can provide theability to prefetch and not execute a tag library on a page before it isrequired so the tag library is cached in the browser. When the browserhits the page that uses the tag library, the tag library can be quicklyretrieved from memory and executed.

For purposes of summarizing the disclosure, certain aspects, advantagesand novel features of several embodiments are described herein. It is tobe understood that not necessarily all such advantages can be achievedin accordance with any particular embodiment of the embodimentsdisclosed herein. Thus, the embodiments disclosed herein can be embodiedor carried out in a manner that achieves or optimizes one advantage orgroup of advantages as taught herein without necessarily achieving otheradvantages as may be taught or suggested herein.

III. Example Computing Environment for Prefetching Tags

Prior to describing prefetch functionality in detail, a computingenvironment for fetching tags will be described. Turning to FIG. 1, anembodiment of a computing environment 100 is shown for implementingvarious tag features, including tag prefetching. In the computingenvironment 100, one or more end user systems 102 communicate over anetwork 108 with a content site 110. The end user systems 102 caninclude any form of computing device and may be desktops, laptops,smartphones, tablets, or the like. A browser 103 or other applicationsoftware installed in the end user systems 102 accesses one or morecontent pages 112 of the content site 110. The content pages may be webpages or other documents or files that may be accessed remotely andprovided to the end user systems 102. Accordingly, the content pages 312may be web pages, documents (e.g., .pdf documents), videos, images,text, combinations of the same, or the like. The content site 110 may bea website, a web server, an application server, a database server,combinations of the same, or the like. Further, the network 108 caninclude a local area network (LAN), a wide area network (WAN), a companyintranet, the public Internet, combinations of the same, or the like.

As shown, one or more content pages 112 of the content site 110 caninclude a tag container 114. The tag container 114 can be an example ofthe tag container described above and can be a universal tag that isinstalled or incorporated in one or more content pages 112 in place of,or instead of, incorporating numerous tags in each page. The tagcontainer 114 can communicate with one or more data collection tags 116,118 (sometimes referred to herein as digital marketing tags or simplydigital tags) implemented on one or more tag servers 120. In anembodiment, one of the tags 116 is a master tag that calls other tags116, 118. The master tag (see FIGS. 4A and 4B) can load and cause tags116, 118 to be executed, and the master tag can also prefetch tags 116,118 for later execution in a different page from the content page 112currently accessed by the browser 103. Both the tag container 114 andthe tags 116, 118 can be implemented as scripts or the like using alanguage such as JavaScript or the like. In some instances, the one ormore content pages 112 can be accordingly understood to include datarepresenting the tag container 114 or data representing the tags 116,118.

Both the content site 110 and the tag servers 120 can be implemented incomputer hardware and/or software. The tags 116, 118 can include thirdparty tags 116 provided by tag vendors that are different entities thanan operator of, or provider of, the tag container 114. In addition, thetags can include a visitor tag or tags 118 that can be provided by thesame provider as the provider of the tag container 114 (or a differentprovider in some embodiments). In some embodiments, the tag container114 can be considered a tag, even if the tag container 114 merely callsother tags for execution. In addition, the tag container 114 can alsocollect data in addition to calling other tags in some embodiments.

An analytics system 130 is shown in communication with the tag servers120. The analytics system 130 can be implemented in computer hardwareand/or software, for example, in one or more physical and/or virtualservers that may be geographically co-located or dispersed. In thedepicted embodiment, the analytics system 130 includes a visitorprocessing system 140, a tag management system 150, a content siteprofiler 160, and a data store 160.

In certain embodiments, the visitor processing system 140 can enable tagmanagement users (described below) to configure the types of datatracked for different visitors of the content site 110, as well asanalyze and report on this visitor data. For instance, in oneembodiment, the visitor processing system 140 can provide one or moreuser interfaces that enable customization of collecting informationabout visitors to the content site 110. This information can be obtainedinitially by the visitor tag(s) 118, which may be provided through thetag container 114 to the end user systems 102 for execution in thebrowser 103. Upon execution in the browser 103, the visitor tag(s) 118can supply visitor data to the visitor processing system 140 (optionallythrough the tag servers 120). Such visitor data can be stored in visitorprofiles in the visitor profile data repository 160, which may includephysical computer storage. Tag management users can subsequently querythe visitor profiles to obtain reports or other information aboutvisitors to the content site 110. Visitor data can also be used toenhance tag prefetching, as will be described below with respect to FIG.6.

The tag management system 150 can be used to manage the tags 116provided by third party vendors. For instance, the tag management system150 can provide functionality for tag management users to select whichthird party vendor tags 116 to associate with the tag container 114 fora variety of vendor-specific processing purposes. These purposes caninclude obtaining analytics for data analysis or business intelligence,tracking affiliate activity with respect to the content site 110,obtaining user data for displaying targeted ads, obtaining user data forcustomizing search functionality or email campaigns targeted to the endusers, obtaining user data for personalizing content of the contentpages 112, obtaining user data for integration with social networkingfunctionality, obtaining user data for big data analysis, combinationsof the same, or the like. Data collected by the tags 116 can be providedto tag vendor systems 170, which can perform any of this vendor-specificprocessing. The data may alternatively be passed to the tag vendorsystems 170 through the tag management system 150.

In an embodiment, the tag management system 150 also providesfunctionality (such as one or more user interfaces) for tag managementusers to map data sources in the content pages 112 to data sourcesgathered by the third party vendor tags 116. For instance, if one of thecontent pages 112 includes a shopping cart value named “cart value,” thetag management system can provide a user interface that enables a userto tell the tag management system 150 to collect data on the “cartvalue” and map this data to a “cart_value” variable of one of the tags116. In addition, the tag management system 150 can provide similarfunctionality for identifying which data sources of the content pages112 are to be gathered by the visitor tag 118.

However, in some embodiments, the visitor tag 118 can instead perform agreedy collection of some or all data available in the content page(s)112. Since the visitor tag 118, tag container 114, and visitorprocessing system 140 can be provided by the same entity, the dataobtained by the visitor tag 118 need not be mapped to third partymappings like the data obtained by the third party tags 116. Instead,some or all of the data available to the visitor tag 118 can be providedto the visitor processing system 140 for processing. Thus, the visitortag 118 can facilitate vendor-neutral data gathering of some or all ofthe data elements in a content page 112. Since this data is not mappedto a vendor-specific format in certain embodiments, the data can beexported to business intelligence systems without a need to massage thedata from its mapped form (which can be cumbersome) to its original, rawform. Visitor profile data can also be used to enhance tag prefetching,as will be described in greater detail below with respect to FIG. 6.

Moreover, the tag management system 150 can also provide functionalityfor adjusting tag prefetch settings. For instance, the tag managementsystem 150 may provide one or more user interfaces that enable tagmanagement users to specify which tags to prefetch or which contentpages 112 on which tags should be prefetched. These user interfaces ofthe tag management system 150 may also provide functionality for usersto specify sequences of content pages in which tags should beprefetched. Content page sequences can include two or more content pagesthat are typically accessed by a user in order. One example sequence ofpages might include a product page, a shopping cart add page, a checkoutpage, and a receipt page. This particular sequence is described ingreater detail below with respect to FIGS. 2A and 2B. In addition,examples of user interfaces that may be output by the tag managementsystem 150 are described below with respect to FIGS. 8 and 9.

Even if users do not specify a particular page sequence, it may bepossible to programmatically identify one or more page sequences forwhich prefetching may be performed. The content site profiler 160 caninclude functionality for programmatically identifying sequences ofcontent pages 112 on the content site 110. The content site profiler 160may, for example, receive content page 112 access data from the tagcontainer 114 and/or the master tag 116 called by the tag container 114.From this content page 112 access data, the content site profiler 160can build a profile of the content site 110 represented as a graph datastructure or the like that links pages based on their successiveaccesses by users. The graph can include directional relationshipsbetween pages based on users subsequently accessing one page to the nextas well as information regarding the number of times users followedthose page associations or the like. From this content site profile, thetag management system 150 can programmatically identify which contentpages 112 in a detected sequence to prefetch tags for, techniques forwhich will be described in greater detail below.

The content site profiler 160 can store content site profiles in thedata store 180. The data store 180 may also store visitor profilesgenerated by the visitor processing system 140, tags created or managedusing the tag management system 150, and prefetch rules or instructionscreated using the tag management system 150. The data store 180 mayinclude physical computer storage and may include one or more databasesor file systems for storing this information.

Various tag management user systems 104 can access the analytics system130 and/or the tag servers 120 via the network 108. Like the end usersystems 102, the tag management user systems 104 can include a browser105 or other application software that can access network applicationsover the network 108. The tag management user systems 104 can also beany type of computing device including, but not limited to, a desktop,laptop, tablet, smartphone, or the like. The tag management user systems104 can be operated by users such as marketing professionals, websiteoperators, business users, operators of the content site 110, or anyother individual who uses tags or data obtained from tags. Tagmanagement users are not the end users of the content site 110 incertain embodiments. A tag management user might use a tag managementuser system 104 to dynamically update the types of data tracked oranalyzed for different visitors of the content site 110. This data canbe tracked by the visitor processing system 140 via either updating thevisitor tag 116 stored on the tag server 120 or by updating processingof data obtained from the visitor tag 116 to build updated visitorprofiles 130, many example features of which will be described ingreater detail below. In addition, a tag management user might use a tagmanagement user system 104 to update tag prefetch settings by accessingone or more tag prefetch user interfaces provided by the tag managementsystem 150.

IV. Example Page Loading Scenarios

FIG. 2A depicts an example tag loading scenario in which an examplesequence 200 of content site pages is shown. The sequence 200 representsan example checkout flow from an initial product page 202, where a usermight browse a product, to a cart add at page 204, where the user mayadd the product to an electronic shopping cart. Following the cart addpage 204 is a checkout page 206, where the user may fill in details suchas billing information, shipping information and so on. Following thecheckout page 206 is a receipt page 208, where the user may be shown areceipt for his or her purchase of the product.

Each page 202, 204, 206, and 208 is shown with content loadingstatistics as well as tag loading statistics. The loading times shownare merely examples and may be longer or shorter in other embodiments.For instance, the product page 202 lists a content load time of fiveseconds and also depicts the loading of two tags, tag 1 and tag 2. Bothtags 1 and 2 are executed as well as loaded on the product page 202. Asshown, the content load time for the product page 202 is five secondswhereas the tag load times are each one second, resulting in a totalpage load time of seven seconds. In addition, the time on page is shownas ten seconds. The time on page may represent idle time where the pageis not loading new content. During this idle time, the user may beviewing the page, entering text on the page, scrolling the page,watching a video or listening to audio on the page, or the like.

In the cart add page 204, the content loads in eight seconds. Becausetags 1 and 2 have already been loaded by the browser in the product page202, tags 1 and 2 are cached and therefore do not need to be loadedagain at the cart add page 204. Thus, tags 1 and 2 are retrieved frommemory and executed rapidly, resulting in a page load time approximatelyequivalent to the content load time of eight seconds. In addition, inthis example, the idle time on the page is 15 seconds.

The checkout page 206 shows an example load time of ten seconds. Again,tags 1 and 2 are executed on this page, but since they are alreadycached, they add little or no time to the load time. Thus, the contentload and the page load are about the same at 10 seconds. The idle timeon this page is 30 seconds. The idle time is relatively high on thispage compared to the cart add page 204 and the product page 202 becausethe user may be entering checkout details such as billing informationand shipping information on the cart add page 204. In general, whenevera page includes a form for a user to fill out (or a video to watch,audio file to listen to, or a large amount of text to read), asignificant amount of page idle time may occur.

The receipt page 208 shows a content load time of ten seconds. Again,tags 1 and 2 are cached and executed and do not add substantially to thecontent load time. However a new tag 3 and another new tag 4 are bothloaded and executed on the receipt page 208. Tags 3 and 4 each have aload time of one second in this example, and therefore the total loadtime is 12 seconds. The idle time on the page, however, is five seconds,which represents a typical scenario where a user, once receivingconfirmation that a purchase has been consummated, may quickly leave thepage, having no further interest in browsing on that page. As a resultof the users leaving the page so quickly, the tags 3 and 4 may notactually load in time to collect any data about that user. Tags notloading on the receipt page 208 may be an unfortunate loss of sitevisitor data since the receipt page 208 may contain interestinginformation about the user's purchase.

While the loading of two tags may not significantly impact the loadingof the content page, many content sites commonly use 20 to 40 tags onsome content pages. This is particular true on receipt pages, which tendto invoke many tags. Thus, if each tag takes a second to load (or someother amount of time) it is probable or highly likely that some or allof those tags may be delayed from loading and may not fully load andexecute prior to the user leaving the page. Further, if the tags loadsynchronously, they may delay the loading of the entire page 208. If thetags load asynchronously, they may not necessarily delay the loading ofthe content on the page but may instead delay loading themselves, andthus may be missed for execution when the user leaves the page.

Referring to FIG. 2B, another example tag loading scenario is shown inthe context of an example sequence 220 of pages. The sequence includesthe same general pages as in FIG. 2A but with prefetching of tagsenabled. Thus, the sequence 220 includes an example product page 222,cart add page 224, checkout page 226, and receipt page 228. Each ofthese pages has the same content load time and idle time shown as inFIG. 2A. However, the page load times differ in some respects becausecertain of the tags are prefetched.

Tags 1 and 2 are loaded on the product page 222, executed on that page222, and are subsequently cached for execution on the cart add page 224and the checkout page 226. However, after the checkout page 226 isloaded, the checkout page prefetches or preloads tags 3 and 4, which arenot to be executed on the checkout page 226 itself but are to beexecuted on the receipt page 228. The prefetching of these tags mayoccur during the idle time on the page. The idle time on the checkoutpage 226 is 30 seconds in this embodiment, which may occur because theuser has been entering billing and/or shipping information. Due to thisidle time, there is time to prefetch tags 3 and 4 so that they do notneed to be loaded on the receipt page 228 itself.

Consequently, the receipt page 228 is able to rapidly access tags 3 and4 from cache and execute them without substantially impacting the pageload time of the receipt page 228. As a result, in certain embodiments,execution of these tags may occur before the user leaves the receiptpage 228 so that analytics can be collected on that user.

Referring to FIG. 2C, yet another example tag loading scenario is shownin the context of an example sequence 240 of pages. The sequenceincludes Pages A, B, C, and D with prefetching of tags enabled. Thesequence illustrates how tags can be loaded from one or more possiblelater pages and prefetched according to tag management user settings ora predictive algorithm. Page A 242 includes end user selectable links toat least Page B 244 and Page C 246. When an end user selects link 1while on Page A 242, the browser 203 can navigate to Page B 244. On theother hand, when the end user selects link 2 while on Page B 244, thebrowser 203 can navigate to Page C 246. Moreover, when the end userselects a link while on Page C 246, the browser 203 can navigate to PageD 248.

After Page A 242 is loaded, Page A 242 prefetches or preloads tags 1, 2,and 3, which are not to be executed on Page A 242 itself but are to beexecuted on one or more of Page B 244, Page C 246, and Page D 248. Theprefetching of these tags may occur during the idle time on Page A 242.The idle time on Page A 242 is 10 seconds in this embodiment, which mayoccur because the user performing one or more operations or reviewinginformation on Page A 242. Due to this idle time, there is time toprefetch tags 1, 2, and 3 so that they do not need to be loaded on PageB 244, Page C 246, and Page D 248 themselves.

Consequently, Page B 244, Page C 246, and Page D 248 are respectivelyable to access tags 1, 2, and 3 from cache and execute them withoutsubstantially impacting the page load time of Page B 244, Page C 246,and Page D 248. As a result, in certain embodiments, execution of thetags 1, 2, and 3 may occur before the user leaves Page B 244, Page C246, and Page D 248 so that analytics can be collected on that user.

One or more tags, such as a master tag described herein, can includeinformation on tags to prefetch in some embodiments. The information onthe tags to prefetch can, for example, be determined by an analyticssystem, such as the tag management system 150, that can analyze end usertraffic on the various pages and determine tags that may be desirablyprefetched according to one or more predictive algorithms. The analyticssystems can consider factors such as end user time on pages, page loadtimes, end user link selection sequences, tag load times, and the likewhen determining tags to indicate to prefetch. In another example, theinformation on the tags to prefetch can be determined by the analyticssystem according to settings provided by a tag management user, such asinstructions by the tag management user to prefetch one or moreparticular tags on one or more particular pages.

In certain embodiments, a prioritized prefetch list can be followed whendetermining whether to prefetch one or more tags, and tags can continueto be prefetched so long as an end user remains idle on one or morepages of a content site. For instance, if the prioritized prefetch listincludes ten tags to prefetch for the content site, the first three tagson the prioritized prefetch list can be prefetched on one page of thecontent site during idle time before an end user selects a link tonavigate to a next page of the content site. Once the end user hasloaded the next page, the remaining seven tags can further be prefetchedduring idle time while on the next page.

V. Example Prefetch Processes

Turning to FIG. 3, in example prefetch overview process 300 is shown.The prefetch overview process 300 can advantageously enable prefetchingof tags and execution of prefetched tags. For convenience, the prefetchoverview process 300 is described as being implemented by components ofthe computing environment 100 described above with respect to FIG. 1.However, the prefetch overview process 300 is not limited as such andmay be implemented by any other system described herein or componentsthereof, or other computing devices or systems comprising physicalcomputer hardware and/or software.

At block 302, an end user system 102 requests a content page 112 from acontent site 110, for example with the browser 103 of the end usersystem 102. The end user system 102 receives the content page 112including a tag container 114 that references tags 116 or 118 to beexecuted in the content page 112 at block 304. In an embodiment, thecontent page 112 references a master tag 116 that may be stored on a tagserver 120. This master tag 116 may call other tags such as the tags 116or 118. These tags may be implemented synchronously, asynchronously, orboth.

At block 306, the end user system 102 (e.g., the browser 103 of the enduser system 102) determines whether any of the tags referenced by themaster tag are cached. If so, the browser 103 can execute the cachedtags at block 308. If not, the process 300 can proceed to blocks 310through 314, where the non-cached tags are requested (block 310),received from a tag server 120 (block 312), and executed (block 314).However, the tags referenced at block 304 may include both tags that arecached and tags that are not cached. Thus, both blocks 308 and 310through 314 may be selected at the decision block 306, such that thecached tags are executed at block 308 and the non-cached tags arerequested, received, and executed at blocks 310 through 314.

Once the non-cached tags are received and executed, the browser 103 mayalso cache them for subsequent execution. The tags that are cached andexecuted at block 308 may have been cached in such a process or may havebeen prefetched. At block 316, the master tag loaded in the browser 103of the end user system 102 can determine whether there are any tags toprefetch. The master tag may include a reference to tags to prefetch ormay access the tag management system 150 to determine if there are anytags to prefetch (see FIGS. 4A and 4B, described below).

If there are tags to prefetch, then the end user system prefetches butdoes not execute one or more additional tags at block 318. For instance,the master tag can load one or more additional tags in memory or browsercache but not run those tags. The master tag can prefetch the tagsduring idle time on the page, or more generally, after content for thatpage and/or tags for that page have been loaded. The master tag needsnot determine whether sufficient idle time on the page is occurring toprefetch tags for a subsequent page in some embodiments because if atransition to the subsequent page occurs mid-prefetch, those tags may berequested again by that subsequent page. Thereafter, or if there are notags to prefetch, the process 300 ends.

Turning to FIG. 4A, an example of a state flow diagram 400 is shown thatdepicts another perspective of an embodiment of the process 300. In thestate flow diagram 400, example states may be executed by the browser103 of the end user system 102, or more generally by a hardwareprocessor of the end user system 102. In FIG. 4A, a content page 412 isshown with a tag container 414, as in FIG. 1. A master tag 415 is alsoshown and digital tags for the current page 416 and digital tags 418 fora later page are also shown. As used herein, in addition to having itsordinary meaning, the terms “later page,” “subsequent page,” and thelike can refer to a page that is linked to the current page loaded orloading in a user's browser (e.g., the current page 416) via a link or achain of links through one or more additional pages. Pages in the chainof one or more links can be within or outside a content site's domain ofthe current page. State transitions are represented by circled numbersin the FIG. 4A.

At state 1, the tag container 414 in the content page 412 calls themaster tag 415, which may be stored on one of the tag servers 120. Atstate 2, the master tag 415 calls digital tags 416 for the currentcontent page 412, unless those digital tags 416 are already cached inthe browser 103 of the end user system 102. The digital tags 416 maythen be executed as described above with respect to the process 300.

At state 3, the master tag 415 prefetches the tags 418 for one or moreknown or possible later pages, such as for two or more later pages. Forexample, referring to FIG. 2C, tags 1 and 2 can be prefetched on Page A242 for later execution on either Page B 244 or Page C 246, or tags 2and 3 can be prefetched on Page A 242 for later execution on Page C 246and Page D 248. The master tag 415 may include a reference to those tags418 to be prefetched as described above and may load them but notexecute them. For instance, the master tag 415 may include both loadingand execution routines that load and execute tags, respectively. Each ofthe tags 416, 418 may have a wrapper class or function wrapped aroundthem that allows them to be executed when they are called for executionby a routine in the master tag 415. The master tag 415 can apply theload and execution routines of any of the digital tags 416 for thecurrent page while applying just the load routine to the digital tags418 for a later page.

Turning to FIG. 4B, another example state flow diagram 420 is shown thatdepicts another example perspective of an embodiment of the process 300.In the state flow diagram 420, the content page tag 420, tag container414, master tag 415, and tags 416, 418 are again shown. In addition, ananalytics system 430 is also shown, which represents an embodiment ofthe analytics system 130. State flow transitions are also represented bycircled numbers in the FIGURE.

At state 1, the tag container 414 calls the master tag 415, and at state2, the master tag 415 calls one or more digital tags 416 for the currentcontent page 412. Thereafter, the master tag 415 requests a list of tagsto prefetch from the analytics system 430 at state 3. The analyticssystem 430 returns a list of one or more tags to prefetch at state 4,and the master tag 415 prefetches those digital tags 418 for a laterpage at state 5.

The difference between FIG. 4B and 4A is that the master tag 415 may nothave an internal list of the digital tags 418 to prefetch in FIG. 4B butinstead contacts the analytics system 430 to determine which tags toprefetch. This scheme shown in FIG. 4B may be advantageous if it isdesired to not update the master tag 415 each time different prefetchoptions are configured for the content pages 412. Alternatively, thescheme shown in FIG. 4A may be more efficient because the master tag 415may not need to contact the analytics system 430 over a network todetermine which tags to prefetch, thereby potentially saving tag loadingtime.

Turning to FIG. 5, an example sequence-based prefetch process 500 isshown. The sequence-based prefetch process 500 can provide a way for atag management user to specify a content page sequence, similar to thecontent page sequences shown in FIGS. 2A and 2B, to thereby enableprefetching on specified pages of the sequence. For convenience, thesequence-based prefetch process 500 is described as being implemented bycomponents of the computing environment 100 described above with respectto FIG. 1. However, the sequence-based prefetch process 500 is notlimited as such and may be implemented by any other system describedherein or components thereof, or other computing devices or systemscomprising physical computer hardware and/or software.

At block 502, the tag management system 150 outputs a user interfacethat enables a tag management user to specify a content page sequence.An example of such a user interface is described below with respect toFIG. 8. At block 504, the tag management system 150 receives anindication of a content page sequence from the tag management user. Forexample, the tag management system 150 may receive the user input of thesequence from the provided user interface.

At block 506, the tag management system 150 receives a user indicationof one or more pages in the sequence for which to prefetch tags. Theuser may specify through the user interface that tags may be prefetchedon any page of the sequence. However, in an embodiment, tags may not beprefetched on the first page of the sequence unless the first page ofthe sequence follows another sequence that has been specified by theuser. In other embodiments, any page can be part of a larger sequencedetected by the content profile module 160, as will be described ingreater detail below with respect to FIG. 6.

In one embodiment, the user can instead specify through the userinterface which pages to optimize or improve loading without having tospecify the tags that are to be prefetched. Alternatively, the user mayspecify through the user interface that general prefetching is to beused, and the tag management system 150 can then intelligently determinewhich pages in the sequence to prefetch. For instance, the tagmanagement system 150 can identify a tag to be executed in a later pageof the sequence and identify a previous page in the sequence in which toprefetch that tag. This preceding page may, but need not, be thedirectly preceding page of the page on which those tags are to beexecuted. Instead, the tag management system 150 may select any earlierpage in the sequence to prefetch the tag on, including the beginningpage in the sequence. Moreover, the tag management system 150 may loadsome or all the tags to be executed in the sequence on the first page ofthe sequence (or another page). Further, the tag management system 150may, in some embodiments, load all tags for a content site in the firstpage of the content site that an end user accesses.

Optionally, at block 508 the tag management system 150 can receive auser indication of specific tags to prefetch and/or pages on which toperform the prefetching. For instance, the provided user interface canprovide options for the user to specify which tags to prefetch and/or onwhich page to perform the prefetching. Further, the tag management usermay also be able to specify through the user interface which pagesinclude hypertext markup language (HTML) forms or which otherwise areexpected to include significant idle time so that the tag managementsystem 150 can intelligently determine which page to load tags on. Pageswith HTML forms or that have expected idle time can be good candidatesfor prefetching tags because of the extra time that may be available toprefetch tags on those pages.

At block 510, the tag management system 150 can create or modify amaster tag to prefetch tags earlier than the indicated pages in thesequence on which those tags are to execute. Alternatively, the tagmanagement system 150 can update the data store 180 to includeinformation on which content pages are to prefetch which tags so thatthe master tag can query the analytics system 130 at runtime (as in FIG.4B).

FIG. 6 depicts an embodiment of a profile-based prefetch process 600.Advantageously, in certain embodiments, the profile-based prefetchprocess 600 can automatically identify sequences that may exist in acontent site's pages that may indicate the possibility of prefetchingtags on pages of the content site. In addition, the process 600 can usevisitor data to enhance the profile of a content site for the purposesof tag prefetching. For convenience, the profile-based prefetch process600 is described as being implemented by components of the computingenvironment 100 described above with respect to FIG. 1. However, theprofile-based prefetch process 600 is not limited as such and may beimplemented by any other system described herein or components thereof,or other computing devices or systems comprising physical computerhardware and/or software.

At block 602, the tag management system 150 develops a content siteprofile and/or a visitor profile based on observed user interactionswith the content site. With respect to developing a content siteprofile, the analytics system 130 can collect data from tag containersor master tags in different content pages that indicate the typical flowfrom content page to content page. The master tag (or tag container) foreach content page may report to the tag management system 150 that ithas loaded so that the tag management system 150 can build a directionalgraph of pages as they are accessed by end users. The tag managementsystem 150 can also track the number of times that successive pages wereselected by end user systems. The resulting graph can include nodes thatrepresent content pages and edges having values that represent (forexample) the number of times a user navigated from a first pageconnected to an edge to a second page connected to the edge. The edgesmay represent this information in other ways, such as by a probabilitythat a page transition may occur (represented, for example, by thenumber of users who went from one page to another divided by the totalnumber of page requests or the like). The edges and/or nodes may alsohave other statistics associated therewith.

In addition, the visitor processing system 140 of the analytics system130 can develop visitor profiles based on observed end user interactionswith the content site. These visitor profiles can be used to enhance theprofile of the content site described above to facilitate intelligentprefetching. The observed visitor profiles may be built using any of thefeatures described in U.S. application Ser. No. 14/149,717, filed Jan.7, 2014, titled “Content Site Visitor Processing System,” which ishereby incorporated by reference fully herein. For instance, the visitorprofiles can be built by the visitor processing system 140 usingattributes and/or rules that specify visitor profiles for differenttypes of users. As an example, visitor profiles can be defined in partby badges created for visitors that have certain characteristics, suchas a badge to represent a user that adds items to a shopping cartwithout purchasing or a badge to represent a user that makes numerouspurchases.

At block 604, the analytics system 130 can predict which tags will beexecuted next from each page of a content site based on the observedpage sequences and/or visitor profiles. With respect to observed pagesequences, the tag management system 150 can calculate the probabilitythat a content page will be accessed following another content page topredict which tags will be executed next from each page. The tagmanagement system 150 can calculate the probability as described abovewith respect to edge values of the content site profile graph. Since thetag management system 150 can access the graph to determine the probableorder in which pages are to be accessed, the tag management system 150can predict which tags are likely to be executed ahead of time. As aresult, the tag management system 150 can use the content site profilegraph to determine which tags to prefetch on which pages.

The tag management system 150 can refine the results of the content siteprofile graph in one embodiment by taking into account visitor profiledata. For instance, the visitor processing system 140 may determine that80% of visitors who added more than $30 of products to their electronicshopping cart typically purchase, and thus the probability of such auser going from a checkout page to a receipt page is relatively high.Thus, the tag management system 150 can modify values of edges betweencheckout pages and receipt pages in the content site profile graph toreflect this increased probability based on the visitor profiles.

Thus, for example, the master tag or the tag management system 150 maydetermine in real time or near real time based on the visitor profile ofa particular end user whether the end user has added $30 or more ofproducts to his or her cart. If so, the master tag or the tag managementsystem 150 can prefetch tags for the next page indicated in the contentsite profile graph.

More generally, at block 606, the analytics system 130 can mark tags tobe prefetched for a page previous to a page on which the tags arepredicted to be executed based on either the observed page sequencesand/or the visitor profile information. At block 608, the analyticssystem 130 can update the master tag for certain pages to includeprefetch instructions for the marked tags and/or store the prefetchedinstructions in the analytics system 130 for access by master tagsusing, for example, the features described above with respect to FIG.4B. The prefetch instructions can include logic for determining whetherthe user matches a certain visitor profile that would predict that theuser is likely to select a subsequent page, enabling the master tag toprefetch tags accordingly.

Turning to FIG. 7, an embodiment of a load time-based prefetch process700 is shown. In the example process 700, prefetching of tags can bedetermined based on statistics associated with individual tags. Forconvenience, the load time-based prefetch process 700 is described asbeing implemented by components of the computing environment 100described above with respect to FIG. 1. However, the load time-basedprefetch process 700 is not limited as such and may be implemented byany other system described herein or components thereof, or othercomputing devices or systems comprising physical computer hardwareand/or software.

At block 702, the analytics system 130 tracks tag loading statisticsacross a plurality of different content sites. By tracking tag loadingstatistics across a plurality of content sites, the analysis system 130can determine or identify tags that load relatively slowly across thecontent sites at block 704. Statistics that may be tracked can includethe average load time of the tags, the median load time of the tags, orany other statistic associated with load time of the tags or othercharacteristics of the tags. In addition, outlier values such asextremely long load times or extremely short load times may be discardedso as to develop a more representative average load time for the tags.

Tags may load slowly for a variety of reasons. They may load slowlybecause they are of large size or because the network on which they arehosted has high latency or low bandwidth. Such tags may be goodcandidates for prefetching because they may otherwise slow down theloading of a content site or may not load fast enough to be executedbefore the end user leaves a page. Slow tags may be identified in anembodiment by ranking tags by their average/median load times andthresholding the tags to determine which of the load times are largerthan others. Tags that meet or are above a certain load time threshold,for instance, may be considered slow-loading relative to other tags.

At block 706, the tag management system 150 marks the identified slowtags as prefetch candidates so that they may be prefetched on existingand/or new content sites. The tag management system 150 may updateexisting master tags for existing content pages known to or expected toprecede content pages that execute the slow tags. In addition, the tagmanagement system 150 may update the data store so that the slow tagsare marked as prefetch candidates so that the tags can be prefetched forany new content pages that reference those tags in the future.

The embodiments shown in FIGS. 5, 6, and/or 7 may also be combined. Forinstance, the predicted sequence described above with respect to FIG. 6or the graph constructed with respect to FIG. 7 may be modified toinclude information about tag load times. The tag management system 150may then prioritize prefetching those tags in the sequence or graph thathave slow load times. In addition, the graph of FIG. 6 could be modifiedto include the user-specified sequence(s) of FIG. 5. Edge values betweennodes of a sequence may be equal to 1 (or the like) to indicate aprobability of 1 that a traversal between such nodes may be made.Alternatively, the probability assigned as an edge value betweensequence nodes can be a high probability value other than 1.

VI. Example User Interfaces for Configuring Prefetch Options

Turning to FIG. 8, an example user interface 800 is shown that can allowusers to specify different prefetch or load rules for a sequence as wellas specify a sequence of pages. The user interface 800 may be generatedby the tag management system 150 and provided as a webpage or the liketo the tag management user systems 104 for output in the browser 105. Inthe depicted embodiment of the user interface 800, different contentpages 810, 812, 814, 816 are specified by the user in a sequence.Numbers 1 through 4 next to the pages 810, 812, 814, 816 represent stepsin the sequence. These pages correspond to the example pages describedabove with respect to FIG. 2B and include a product page 812, cart page814, checkout page 816, and receipt page 818. A user can specify acustom name for the product page using name fields 811 as well asspecify a uniform resource locator (URL) for the page itself using apage field 813. Alternatively, the user can browse a file system for acontent page to find the name or file system path of the page usingbrowse buttons 815. Using add and delete buttons 817, the user caninsert a page into the sequence or delete a page from the sequence.

On each page 810, except for optionally the first page 810, an optionbox 820 is provided for prefetching all tags on the page. One of theprefetch boxes 823 is shown as selected. Select boxes 822 are alsoprovided to allow users to select specific tags to prefetch on eachpage. Users can save a created sequence using a save sequence button824.

Turning to FIG. 9, another example user interface 900 is shown thatenables a user to specify that a tag be prefetched. The user interface900 may be generated by the tag management system 150 and provided as awebpage or the like to the tag management user systems 104 for output inthe browser 105. In this particular embodiment, the user interface 900includes a pop-up box 902 that enables a user to specify load rules fora particular tag, including which pages to load the tag, using userinterface controls 910. In addition, a check box 920 in the pop-up box902 allows the user to specify whether to prefetch the tag. If the userselects the check box 920 to prefetch the tag, then the tag managementsystem can store in any master tag for a page preceding a page that usesthis tag a directive to attempt to prefetch the tag before execution. Atag may be prefetched as part of a sequence or may generally beprefetched based on the content site profile developed above withrespect to FIG. 7. In the depicted example, a “LivePerson” chat tag isselected, which is an example of a tag that may load slowly on a page.Thus, it can be beneficial to provide tag management users with theoption to request prefetching for such a tag.

As another approach to the load rules shown in FIG. 9, the tagmanagement system 150 may output a user interface similar to FIG. 9 thatenables a tag management user to specify one or more load rules thatdefine which content pages to execute a tag on and which content pagesto prefetch a tag on. For instance, the user may define a first loadrule that specifies that a tag is to be executed on a receipt page and asecond load rule that specifies that the tag is to be prefetched on acheckout page (or a single load rule that specifies both actions). Thetag management system 150 can then update the master tag for thecheckout page to prefetch the tag and can update the master tag for thereceipt page to execute the tag. In other embodiments, such as in thescenario of FIG. 4B, the master tag for the checkout and receipt pagescan query the tag management system 150 (or analytics system 430) todetermine which tags to prefetch or execute on any given page, includingthe checkout and receipt pages.

Each of the user interfaces 800, 900 shown includes one or more userinterface controls that can be selected by a tag management user, forexample, using a browser (e.g., the browser 105) or other applicationsoftware. The user interface controls shown are merely illustrativeexamples and can be varied in other embodiments. For instance, buttons,dropdown boxes, select boxes, text boxes, check boxes, slider controls,and other user interface controls shown may be substituted with othertypes of user interface controls that provide the same or similarfunctionality. Further, user interface controls may be combined ordivided into other sets of user interface controls such that similarfunctionality or the same functionality may be provided with verydifferent looking user interfaces. Moreover, each of the user interfacecontrols may be selected by a user using one or more input options, suchas a mouse, touch screen input, or keyboard input, among other userinterface input options.

VII. Detailed Example Computing Environments

Turning to FIG. 10, a more detailed example embodiment of a computingenvironment 1000 is shown that can perform any of the analytics featuresdescribed herein. The computing environment 1000 is a more detailedexample of implementation of the computing environment 100 of FIG. 1. Asin FIG. 1, end user systems 102 are shown in communication with contentsites 110 which may communicate over a network (not shown). In addition,tag management user systems 104 are also shown. The computingenvironment 1000 facilitates implementation of an analytics system 1040,which may include the functionality of the analytics systems 130 or 430described above.

In the depicted embodiment, the analytics system 1040 is showndistributed in a cloud platform that provides redundant andgeographically dispersed access to the analytics system 1040. Inparticular, the analytics system 1040 is implemented in various cloudregions 1072. These cloud regions may be implemented in any type ofcloud platform, which may simply be a data center operated by a vendorof the analytics system or by a third-party vendor such as Amazon WebServices™, Microsoft Azure™, Rackspace™, Linode™, combinations of thesame, or the like. Each cloud region 1072 includes a load balancer 1076that can balance requests to analytics system instances 1040.

The analytics system instances 1040 can be implemented as virtualmachines and/or physical machines. In the Amazon Web Servicesembodiment, the instances 1040 can be elastic compute cloud (EC2)instances that are distributed geographically for faster and redundantaccess to geographically dispersed analysis user systems 104. Inaddition, visitor profile data storage devices 1030 are shown in thedifferent cloud regions 1072 and can store tag and visitor data in thecloud. Virtual private network (VPN) tunnels 1080 facilitate securecommunication in a virtual private network among the different cloudregions 1072 and enable administrator users (not shown) of the analyticssystem to access analytics system instances 1040.

In an embodiment, the virtual private network is facilitated or providedby a private cloud service, such as the Virtual Private Cloud (VPC)service provided by Amazon Web Services™. The private cloud service canprovide security to the analytics system instances 1040 by virtue ofobscuring IP addresses of the analytics instances 1040. The analyticssystem instances 1040 may have nonpublic IP addresses so that eachanalytics system instance 1040 does not need to have security softwarethat is responsible for securing the analytics system 1040 itself.

A geodns provider 1060 is provided for interfacing between content sites110, analysis user systems 104, and the various analytics systeminstances 1040. The geodns provider 1060 can also provide end users withaccess to published tags 1090 which are stored in tag servers 1094accessible through one or more or content delivery networks (CDNs) 1092.The function of the geodns provider 1060 in one embodiment is toperiodically determine which CDN hosting the tags has the lowestlatency, thereby selecting which CDN to point the content site 110 towhen accessing tags on the tag servers 1094. The geodns provider 1060may implement the DYN DNS system in one embodiment.

Advantageously, in certain embodiments, by storing tags in CDNs, tagaccess can be much faster than if tags were stored in locally hosted tagservers. Further, by using a geodns provider 1060, access to tags can beeven more rapidly achieved by cycling through the fastest available CDNs1092.

VIII. Additional Embodiments

In an embodiment, the master tag 415 of FIG. 4A can include a referenceto a second tag (e.g., a second master tag or prefetch tag) for asuccessive content page in a sequence of content pages. For instance,the master tag for a checkout page can include a reference to a mastertag for a receipt page. The first master tag for the first page in thesequence can load the second master tag for the second page in thesequence and then inspect the tags called by the second master tag. Thefirst master tag can then prefetch the tags referenced by the secondmaster tag. Similarly, the master tag 415 of FIG. 4B can call theanalytics system 430 to identify a second master tag associated with anext page in a sequence to identify tags called by the second master tagand then prefetch those tags.

In another embodiment, the analytics system 130 can compile idle timestatistics regarding content pages on the content site 110. The tagcontainer and/or master tag can report data on page idle times to theanalytics system 130 so that the analytics system 130 can use this datato improve tag prefetching. Pages that typically have longer idle timesmay be good candidates for pages on which tag prefetching can occur.Since end users may spend different amounts of time on the same contentpage, the analytics system 130 can average idle times for pages toproduce an average idle time for a page (or some other statistic such asmedian, mode, etc.). The analytics system 130 can identify pages thathave an average (for example) idle time that meets or exceeds athreshold and mark these pages as pages on which tag prefetching canoccur. In one embodiment, the analysis system 130 can update the graphdescribed above with respect to FIG. 6 to include idle time statisticsin nodes of the graph (which can correspond to individual contentpages).

In yet another embodiment, the master tag can programmatically identifya form or video (or other feature) exists on a content page. The mastertag can report this information to the analytics system 130 so that theanalytics system 130 can store this information in association with datarepresenting each content page, e.g., in the graph referred to above.The analytics system 130 can use this information much like the idletime statistics to identify pages in which content prefetching mayoccur. As described above, pages with forms, video, audio files, largeamounts of text (which can be determined by thresholding word counts,etc.), can be good candidates for performing prefetching on those pagesbecause end users may spend a significant amount of idle time on thosepages.

In an additional embodiment, a system for facilitating digital tagprefetching includes a computer system comprising physical computerhardware. The computer system can be configured to electronicallygenerate a user interface that provides functionality for a tagmanagement user to specify one or more load rules with respect tocontent pages of a content site. The one or more load rules can governprefetching of a digital tag on one or more of the content pages. Thecomputer system can be further configured to (1) receive, through theuser interface, first input from the tag management user specifying afirst content page of the content pages on which to execute a firstdigital tag and (2) receive, through the user interface, second inputfrom the tag management user specifying a second content page of thecontent pages on which to prefetch the first digital tag. In addition,the computer system can be configured to store the first and secondinputs as one or more first load rules configured to cause the firstdigital tag to be prefetched on the second content page and executed onthe first content page.

IX. Terminology

Many other variations than those described herein will be apparent fromthis disclosure. For example, depending on the embodiment, certain acts,events, or functions of any of the algorithms described herein can beperformed in a different sequence, can be added, merged, or left outaltogether (e.g., not all described acts or events are necessary for thepractice of the algorithms). Moreover, in certain embodiments, acts orevents can be performed concurrently, e.g., through multi-threadedprocessing, interrupt processing, or multiple processors or processorcores or on other parallel architectures, rather than sequentially. Inaddition, different tasks or processes can be performed by differentmachines and/or computing systems that can function together.

The various illustrative logical blocks, modules, and algorithm stepsdescribed in connection with the embodiments disclosed herein can beimplemented as electronic hardware, computer software, or combinationsof both. To clearly illustrate this interchangeability of hardware andsoftware, various illustrative components, blocks, modules, and stepshave been described above generally in terms of their functionality.Whether such functionality is implemented as hardware or softwaredepends upon the particular application and design constraints imposedon the overall system. The described functionality can be implemented invarying ways for each particular application, but such implementationdecisions should not be interpreted as causing a departure from thescope of the disclosure.

The various illustrative logical blocks and modules described inconnection with the embodiments disclosed herein can be implemented orperformed by a machine, such as a general purpose processor, a digitalsignal processor (DSP), an application specific integrated circuit(ASIC), a field programmable gate array (FPGA) or other programmablelogic device, discrete gate or transistor logic, discrete hardwarecomponents, or any combination thereof designed to perform the functionsdescribed herein. A general purpose processor can be a microprocessor,but in the alternative, the processor can be a controller,microcontroller, or state machine, combinations of the same, or thelike. A processor can include electrical circuitry configured to processcomputer-executable instructions. In another embodiment, a processorincludes an FPGA or other programmable device that performs logicoperations without processing computer-executable instructions. Aprocessor can also be implemented as a combination of computing devices,e.g., a combination of a DSP and a microprocessor, a plurality ofmicroprocessors, one or more microprocessors in conjunction with a DSPcore, or any other such configuration. A computing environment caninclude any type of computer system, including, but not limited to, acomputer system based on a microprocessor, a mainframe computer, adigital signal processor, a portable computing device, a devicecontroller, or a computational engine within an appliance, to name afew.

The steps of a method, process, or algorithm described in connectionwith the embodiments disclosed herein can be embodied directly inhardware, in a software module stored in one or more memory devices andexecuted by one or more processors, or in a combination of the two. Asoftware module can reside in RAM memory, flash memory, ROM memory,EPROM memory, EEPROM memory, registers, hard disk, a removable disk, aCD-ROM, or any other form of non-transitory computer-readable storagemedium, media, or physical computer storage known in the art. An examplestorage medium can be coupled to the processor such that the processorcan read information from, and write information to, the storage medium.In the alternative, the storage medium can be integral to the processor.The storage medium can be volatile or nonvolatile. The processor and thestorage medium can reside in an ASIC.

Conditional language used herein, such as, among others, “can,” “might,”“may,” “e.g.,” and the like, unless specifically stated otherwise, orotherwise understood within the context as used, is generally intendedto convey that certain embodiments include, while other embodiments donot include, certain features, elements and/or states. Thus, suchconditional language is not generally intended to imply that features,elements and/or states are in any way required for one or moreembodiments or that one or more embodiments necessarily include logicfor deciding, with or without author input or prompting, whether thesefeatures, elements and/or states are included or are to be performed inany particular embodiment. The terms “comprising,” “including,”“having,” and the like are synonymous and are used inclusively, in anopen-ended fashion, and do not exclude additional elements, features,acts, operations, and so forth. Also, the term “or” is used in itsinclusive sense (and not in its exclusive sense) so that when used, forexample, to connect a list of elements, the term “or” means one, some,or all of the elements in the list. Further, the term “each,” as usedherein, in addition to having its ordinary meaning, can mean any subsetof a set of elements to which the term “each” is applied.

While the above detailed description has shown, described, and pointedout novel features as applied to various embodiments, it will beunderstood that various omissions, substitutions, and changes in theform and details of the devices or algorithms illustrated can be madewithout departing from the spirit of the disclosure. As will berecognized, certain embodiments described herein can be embodied withina form that does not provide all of the features and benefits set forthherein, as some features can be used or practiced separately fromothers.

1-13. (canceled)
 14. A system for configuring prefetching of a contentitem by an end user device, the system comprising: one or moreprocessors programmed to: generate a user interface comprisingfunctionality for a user to configure a load rule to indicate that anend user device is to: responsive to loading of a first content page bythe end user device, fetch a content item via a computer network and notexecute the content item with respect to the first content page, andresponsive to loading of a second content page different from the firstcontent page by the end user device, execute the content item withrespect to the second content page, wherein the load rule is usable by aserver to control when the end user device fetches the content item andwhen the end user device executes the content item; and output the userinterface for presentation to the user; and a memory device incommunication with the one or more processors, the memory device beingconfigured to store the user interface.
 15. The system of claim 14,wherein the content item comprises a script, the script comprisinginstructions that when executed by the end user device with respect tothe second content page cause the end user device to gather dataindicative of user interactions with one or more elements of the secondcontent page.
 16. The system of claim 14, wherein the user interfacecomprises functionality for the user to identify a sequence in which theend user device is expected to load a plurality of content pages, theplurality of content pages comprising the first content page and thesecond content page.
 17. The system of claim 16, wherein the userinterface comprises functionality for the user to: adjust the sequencefrom a first order for the plurality of content pages to a second orderfor the plurality of content pages different from the first order, andadjust the load rule to indicate that the end user device is to:responsive to loading of the second content page by the end user device,fetch the content item via the computer network and not execute thecontent item with respect to the second content page, and responsive toloading of the first content page by the end user device, execute thecontent item with respect to the first content page.
 18. The system ofclaim 14, wherein the user interface comprises functionality for theuser to provide an input to associate the content item with the firstcontent page to configure the load rule.
 19. The system of claim 14,wherein the user interface comprises functionality for the user toselect the content item from a plurality of content items to configurethe load rule for the content item.
 20. The system of claim 19, whereinthe user interface comprises functionality for the user to selectanother content item from the plurality of content items to configureanother load rule for the another content item, the another content itembeing different from the content item.
 21. The system of claim 19,wherein the user interface comprises functionality for the user toselect a plurality of content pages that, responsive to loading by theend user device, cause the end user device to prefetch the content itemvia the computer network, the plurality of content pages comprising thefirst content page.
 22. The system of claim 14, wherein the userinterface comprises functionality for the user to request that theserver automatically configure the load rule.
 23. The system of claim14, wherein the one or more processors is programmed to communicate, viathe computer network to the server, configuration data indicative of theload rule configured via the user interface by the user.
 24. The systemof claim 14, in combination with the server, the server being configuredto instruct the end user device according to the load rule when to fetchand execute the content item.
 25. The system of claim 14, whereinexecution of the content item with respect to the second content page bythe end user device causes the end user device to perform one or moreoperations with respect to the second content page.
 26. A method ofcontrolling collection of data indicative of interactions with a contentobject, the method comprising: by one or more processors: generating auser interface comprising functionality for a user to configure a loadrule to indicate that an end user device is to: responsive to loading ofa first content page by the end user device, fetch a content item via acomputer network and not execute the content item with respect to thefirst content page, and responsive to loading of a second content pagedifferent from the first content page by the end user device, executethe content item with respect to the second content page, wherein theload rule is usable by a server to control when the end user devicefetches the content item and when the end user device executes thecontent item; presenting the user interface to the user on a display;and receiving, by the user interface, one or more user inputs toconfigure the load rule.
 27. The method of claim 26, wherein the contentitem comprises a tag, the tag comprising instructions that when executedby the end user device with respect to the second content page cause theend user device to gather data indicative of user interactions with oneor more elements of the second content page.
 28. The method of claim 26,further comprising: receiving, by the user interface, a first user inputof the one or more user inputs to associate the content item with thefirst content page; receiving, by the user interface, a second userinput of the one or more user inputs to select the content item from aplurality of content items; generating configuration data indicative ofthe load rule from the first user input and the second user input; andcommunicating, via the computer network, the configuration data to theserver.
 29. The method of claim 26, wherein the user interface comprisesfunctionality for the user to: select the content item from a pluralityof content items to configure the load rule for the content item, andselect another content item from the plurality of content items toconfigure another load rule for the another content item, the anothercontent item being different from the content item.
 30. The method ofclaim 26, wherein said generating comprises generating the userinterface using a browser.
 31. The method of claim 26, wherein the userinterface comprises functionality for the user to request that theserver automatically configure the load rule to optimize a loadingperformance by the end user device.
 32. The method of claim 26, whereinexecution of the content item with respect to the second content page bythe end user device causes the end user device to communicate generateddata associated with the second content page to an electronic device viathe computer network.
 33. Non-transitory physical computer storagecomprising computer-executable instructions stored thereon that, whenexecuted by one or more processors, are configured to implement aprocess comprising: generating a user interface comprising functionalityfor a user to configure a load rule to indicate that an end user deviceis to: responsive to loading of a first content page by the end userdevice, fetch a content item via a computer network and not execute thecontent item with respect to the first content page, and responsive toloading of a second content page different from the first content pageby the end user device, execute the content item with respect to thesecond content page, wherein the load rule is usable by a server tocontrol when the end user device fetches the content item and when theend user device executes the content item; presenting the user interfaceto the user on a display; and receiving, by the user interface, one ormore user inputs to configure the load rule.
 34. The non-transitoryphysical computer storage of claim 33, wherein the process furthercomprises: receiving, by the user interface, a first user input of theone or more user inputs to associate the content item with the firstcontent page; receiving, by the user interface, a second user input ofthe one or more user inputs to select the content item from a pluralityof content items; generating configuration data indicative of the loadrule from the first user input and the second user input; andcommunicating, via the computer network, the configuration data to theserver.